CN1255761A - High-magnetodensity permanent-magnet motor without brush - Google Patents
High-magnetodensity permanent-magnet motor without brush Download PDFInfo
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- CN1255761A CN1255761A CN 99124651 CN99124651A CN1255761A CN 1255761 A CN1255761 A CN 1255761A CN 99124651 CN99124651 CN 99124651 CN 99124651 A CN99124651 A CN 99124651A CN 1255761 A CN1255761 A CN 1255761A
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Abstract
A high-magnetodensity permanent-magnet motor without brush features that an auxiliary magnetic pole, which has a flux direction different from that of primary magnetic pole and having the flux-gethering action toward gap for primary magnetic pole is added between adjacent primary magnetic poles or in the primary magnetic pole in order to greatly increase the magneto-density in air gap, power of motor and high response. Its advantages are simple structure and high reliability.
Description
The invention belongs to a kind of permanent magnet brushless electromotor, include the permanent magnet brushless electromotor of groove and slotless with high magnetic flux density magnetic circuit.
Along with the considerable progress of semiconductor device, computing technique and Nd-Fe-Bo permanent magnet material, magneto is widely used in the automatic control system.As the driving element of quick response, the high-power of magneto, intellectuality and miniaturization and are main developing direction.Fig. 1 is several motor cross-sectional view of the prior art, Fig. 1-1 has the groove brushless motor for no pole shoe permanent magnetism, this structure magnetic pole does not have poly-magnetic effect, air gap flux density is lower, it is also lower to exert oneself, Fig. 1-2 has pole shoe structure, the every utmost point of this rotor is made up of two tangential magnet-steels pole shoe middle with being clipped in magnet steel, air gap flux density can be improved and motor is exerted oneself, but because the increase of air gap flux density can cause that the stator tooth magnetic circuit is saturated, therefore have to stator tooth is widened, and stator tooth is widened and can be caused narrowing down of stator slot, coil volume reduces, and reduces motor and exerts oneself.Fig. 1-the 3rd, a kind of brushless motor of slotless configuration, the great advantage of this structure is that stator core is difficult for full closing, but because its stator winding is attached to the inner surface of stator core, for magnetic circuit, outside " magnetic circuit " air gap deacration air gap 4 between stator and the rotor, also to comprise the space that stator winding is shared, can cause magnetic air gap excessive so be attached to the stator winding of inner surface unshakable in one's determination, the air gap flux density that rotor magnetic pole is produced is low excessively, reduce and exert oneself and response fast, thereby the advantage of slotless configuration can not given full play to.1., to improve magnet steel magnetic close improving air gap flux density is that motor obtains good dynamic characteristic, improves the effective way of exerting oneself and realizing miniaturization and, mainly contains three kinds of methods and improve air gap flux density:; 2., increase magnet steel steel sectional area; 3., reduce leakage flux.The conventional practice majority is not change structure at present, improves air gap flux density with the high-quality magnetic material, has so just caused the significantly raising of motor cost, has influenced it and has applied on a large scale.
The present invention is intended to overcome above-mentioned defective, provide a kind of have simple in structure, cost is low, reliable operation, permanent magnet brushless electromotor that air gap flux density is high, particularly comprises the permanent magnet brushless electromotor of slotless configuration.
The technical scheme that realizes above-mentioned purpose is: the stationary part that the present invention is provided with in casing comprises stator core (1), stator winding (2), rotor portion comprises main shaft (6) and main pole (5) fixed thereon, be provided with footpath air gap (4) between rotor main pole and the stator, it is characterized in that: described rotor circumference to adjacent main pole between, or main pole inside is provided with flow direction and the main pole flow direction is inequality, be an angle and to the auxiliary magnetic pole (3) of the oriented air gap direction magnet accumulating cap of main pole.
Poly-magnetic recited above be exactly with main pole direction be an angle auxiliary magnetic pole magnetic flux and main pole magnetic flux to main pole right air gap direction shrink, the present invention adopts auxiliary magnetic pole can realize the increase of magnet steel sectional area and the minimizing of leakage field simultaneously, auxiliary magnetic pole not only can push away the leakage flux between magnetic pole, make leakage flux become main flux, simultaneously self also produce main flux, therefore, make with the magnetic flux of different angles by main and auxiliary magnetic pole and press to air gap (4) simultaneously, this very strong poly-magnetic effect can make air gap flux density heighten.
The present invention can increase the magnetic flux density of air gap between stator and the rotor effectively, improve and exert oneself and response fast, it is excessive to have overcome the electric air gap of brushless, permanently slotless electric machines iron core inner surface motor that winding causes, air gap flux density is crossed the low defective that influences motor performance, thereby advantages such as the slotless motor torque ripple is little, the linearity is high, thermal time constant is big, inductance is little are given full play to, and magnetic structure of the present invention can be applicable to the permanent magnetism AC/DC motor of groove equally effectively.Performance of the present invention is good, and is simple in structure, and cost is low, and volume is little, in light weight, and reliable operation is convenient to large-scale promotion application.
Description of drawings
Fig. 1, several electric motor structure schematic diagrames of the prior art
The brushless, permanently of 1-1, existing no pole shoe has groove electric machine structure schematic diagram
1-2, there is the brushless, permanently of pole shoe that groove electric machine structure schematic diagram is arranged
1-3, existing brushless, permanently slotless electric machines structural representation
1-stator core 2-stator winding 3-stator tooth 4-air gap
5-main pole 6-main shaft 7-stator slot 8-pole shoe
Fig. 2, the embodiment of the invention 1 no pole shoe brushless, permanently slotless electric machines cross-sectional view
The 9-auxiliary magnetic pole
Fig. 3, the embodiment of the invention 2 have pole shoe brushless, permanently slotless electric machines cross-sectional view
Fig. 4, the embodiment of the invention 3 have pole shoe brushless, permanently slotless electric machines cross-sectional view
Fig. 5, have an auxiliary magnetic pole 9 embodiment 3 with it power electric current during not with auxiliary magnetic pole
The curve comparison diagram
(4 utmost points: 2P=4) pole shoe brushless, permanently slotless electric machines is arranged of A-embodiment 3 band interpoles
Curve
B-not is with (12 utmost points: 2P=12) pole shoe permanent magnetism brushless slotless motor is arranged of interpole
Curve.
K-motor operating point
M-motor rated current (6.62A)
N-motor rated power (51W)
The no pole shoe brushless, permanently slotless electric machines of Fig. 6, the embodiment of the invention 4 piece structures cuts open
The face structural representation
The no pole shoe brushless, permanently slotless electric machines section of Fig. 7, the embodiment of the invention 5 piece structures
Structural representation
Fig. 8, prior art whenever very the no pole shoe brushless, permanently slotless electric machines of monolithic radial magnet steel cut open
The face structural representation
Fig. 9, embodiment 4 are right with the unloaded air-gap field waveform of motor shown in Figure 8 with embodiment 5
Than figure
Br-magnet steel residual flux density
The curve of curve a-corresponding motor shown in Figure 8
The curve of the curve b-corresponding embodiment of the invention 4 motors shown in Figure 6
The curve of the curve c-corresponding embodiment of the invention 5 motors shown in Figure 7
Embodiment 1 (see figure 2)
This example is no pole shoe brushless, permanently slotless motor, stator core 1 is a cylindrical shape, stator winding 2 sticks on its inner surface equably, rotor portion comprises the main shaft 6 (rotor yoke not shown in the figures) that is with rotor yoke, main pole 5 fixing on the rotor is salient poles, form by radial magnet steel, be provided with radial air gap 4 between stator and the rotor, rotor circumference to adjacent main pole 5 between be provided with the auxiliary magnetic pole 9 of the tangential magnet-steel that is attached to adjacent two main pole sides.
Will there be bigger leakage flux in this example between adjacent main pole if do not establish auxiliary magnetic pole 9, and all main fluxs all will pass through rotor main shaft yoke portion, for avoiding yoke portion saturated, will increase its sectional area, make the increase of motor volume weight.After increasing auxiliary magnetic pole, the tangential magnetic flux of auxiliary magnetic pole has not only pushed away the leakage flux between adjacent main pole, and make leakage flux become main flux, simultaneously self also produce main flux, like this, respectively with radially and the magnetic flux of tangential different directions by main pole and auxiliary magnetic pole promptly can press to air gap 4 simultaneously, air gap flux density is significantly increased, in addition, because the tangential magnetic flux of auxiliary magnetic pole exists, make the part main flux through auxiliary magnetic pole and closure, reduced the magnetic flux through rotor yoke, it is saturated that yoke portion is difficult for, its volume, weight can reduce, the hybrid magnetic structure of this protruding non-salient pole, it is excessive to overcome the electric air gap of brushless, permanently slotless electric machines effectively, and air gap flux density is crossed the low defective (effective equally to the groove motor is arranged) that influences motor performance.
Embodiment 2 (Fig. 3)
This example is that pole shoe brushless, permanently slotless electric machines is arranged, this routine main pole 5 is made up of the high magnetic conduction mild steel pole shoe 8 between adjacent two tangential magnet-steels and the two magnet steel terminations, be embedded with the auxiliary magnetic pole 9 of radial magnet steel between described adjacent two tangential magnet-steel sidewalls, operation principle is substantially the same manner as Example 1.This protruding non-salient pole combination of this example, every utmost point is along two tangential (magnet steel) of magnetizing direction, one radially the magnetic flux that sends of (auxiliary magnetic pole) magnet steel surface press to air gap 4 by pole shoe 8 simultaneously, have higher magnet accumulating cap, the increase rate of its air gap flux density is more remarkable than embodiment 1.
Embodiment 3 (Fig. 4)
This example is basic identical with embodiment 2 structures, the adjacent two tangential magnet-steel cross sections that are described composition main pole 5 are inner small and outside big trapezoidal, pole shoe 8 is embedded between the sidewall at position, two magnet steel terminations, and auxiliary magnetic pole 9 is embedded in two magnet steel near between the two side at main shaft position.
Fig. 5 is power-current curve: P=f (I).A for this example band auxiliary magnetic pole (4 utmost points: 2P=4) curve of pole shoe brushless, permanently slotless electric machines is arranged, B is not with (12 utmost points: 2p=12) curve of pole shoe permanent magnetism brushless slotless motor is arranged of auxiliary magnetic pole.Can be found out by this figure: 4 utmost point motors of the auxilliary rib magnetic pole of this example band can reach the same power (K point) of 12 utmost point motors of not being with interpole, therefore, adopt the approach of auxiliary magnetic pole of the present invention " poly-magnetic " to improve air gap flux density, the approach that increases number of poles (increasing the magnet steel consumption) than prior art is more effective, more economical, structure is simpler.
Embodiment 4 (Fig. 6) and embodiment 5 (Fig. 7)
Embodiment illustrated in fig. 64 main pole 5 is tile-shaped magnet steels radially, embodiment illustrated in fig. 75 main pole 5 is that symmetrically arranged watt of shape interpole in its left and right sides 9 is orientated and main pole is inequality and be symmetrical in main pole cross section center line by two watt shape utmost points that orientation is different and symmetrical tile-shaped magnet steel is spliced into.
This example not only can improve air gap flux density, can also improve the air-gap field waveform, improves the motor runnability.
Need to prove: do not have the space between the adjacent pole of piece structure of the present invention, the interpole of its adjacent pole sticks together, and when removing interpole, just need plug the gap rearranges into tight structure shown in Figure 8.And the rotor of structure shown in the embodiment 1~3 remove auxilliary rib extremely after, main pole still is magnetic pole independently.
Fig. 9 be embodiment 4 with embodiment 5 with every very unloaded air-gap field comparison of wave shape figure of the no pole shoe brushless, permanently slotless electric machines of monolithic radial magnet steel shown in Figure 8, can find out from this figure: the close Br of being lower than of motor curve a air gap peak value magnetic of corresponding diagram 8, there is not poly-magnetic effect, the rectangular ripple of curve; The embodiment 4 of curve b corresponding diagram 6 band auxiliary magnetic poles, curve are trapezoidal wave (reducing the motor torque fluctuation), and the close Br that is higher than of air gap peak value magnetic, and magnet accumulating cap is arranged, and have improved motor and have exerted oneself and response fast; The embodiment 5 of curve c corresponding diagram 7 band auxiliary magnetic poles, curve is sinusoidal wave (significantly reducing the motor torque fluctuation), and air gap peak value magnetic Mi Genggao, has improved the runnability and the raising of motor effectively and has exerted oneself.
The brushless, permanently slotless electric machines of previous embodiment 4,5 piece structures can make a part of main flux closed circuit by auxiliary magnetic pole, and no longer through rotor yoke, it is saturated that yoke portion is difficult for, thereby can reduce the volume and weight of rotor yoke.
Claims (5)
1, high-magnetodensity permanent-magnet motor without brush, the stationary part that is provided with in its casing comprises stator core (1), stator winding (2), rotor portion comprises main shaft (6) and main pole (5) fixed thereon, be provided with footpath air gap (4) between rotor main pole and the stator, it is characterized in that: described rotor circumference to adjacent main pole between, or main pole inside is provided with flow direction and the main pole flow direction is inequality, be an angle and to the auxiliary magnetic pole (3) of the oriented air gap direction magnet accumulating cap of main pole.
2, motor according to claim 1, it is characterized in that: described main pole (5) is a salient pole, form by radial magnet steel, rotor circumference to adjacent main pole (5) between be provided with the auxiliary magnetic pole (9) of the tangential magnet-steel that is attached to adjacent two main pole sides.
3, motor according to claim 1, it is characterized in that: described main pole (5) is made up of the high magnetic conduction mild steel pole shoe (8) between adjacent two tangential magnet-steels and the two magnet steel terminations, is embedded with the auxiliary magnetic pole (9) of radial magnet steel between described adjacent two tangential magnet-steel sidewalls.
4, motor according to claim 1, it is characterized in that: each magnetic pole of described rotor be different with the main pole orientation by the main pole (5) of watt shape with both sides, be an angle and be symmetrical in main pole watt shape utmost point cross section center line, watt shape auxiliary magnetic pole (9) of the oriented air gap direction magnet accumulating cap of main pole is spliced.
5, motor according to claim 4, it is characterized in that: described main pole (5) is that the symmetrically arranged watt of shape auxiliary magnetic pole in its left and right sides (9) is orientated and main pole is inequality and be symmetrical in main pole cross section center line by two watt shape utmost points that orientation is different and symmetrical tile-shaped magnet steel is spliced into.
Priority Applications (1)
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CN 99124651 CN1128494C (en) | 1999-12-22 | 1999-12-22 | High-magnetodensity permanent-magnet motor without brush |
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CN 99124651 CN1128494C (en) | 1999-12-22 | 1999-12-22 | High-magnetodensity permanent-magnet motor without brush |
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CN1255761A true CN1255761A (en) | 2000-06-07 |
CN1128494C CN1128494C (en) | 2003-11-19 |
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US7714466B2 (en) | 2006-07-24 | 2010-05-11 | Hitachi Industrial Equipment Systems Co., Ltd. | Claw-teeth-type rotating electrical machine |
CN101282050B (en) * | 2008-05-22 | 2011-05-04 | 中国科学院电工研究所 | Non-groove stator of evaporative cooling motor |
CN102714454A (en) * | 2009-12-02 | 2012-10-03 | 弹簧圈动力传输有限公司 | Permanent magnet coupling |
WO2016000301A1 (en) * | 2014-07-04 | 2016-01-07 | 周凌燕 | Excitation power generating and driving device |
CN105680655A (en) * | 2016-03-25 | 2016-06-15 | 福建金隆昌工业科技有限公司 | Power generation set with hybrid excitation device |
CN113300558A (en) * | 2021-06-10 | 2021-08-24 | 哈尔滨工业大学 | Double concentrated winding permanent magnet synchronous motor |
-
1999
- 1999-12-22 CN CN 99124651 patent/CN1128494C/en not_active Expired - Fee Related
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US7714466B2 (en) | 2006-07-24 | 2010-05-11 | Hitachi Industrial Equipment Systems Co., Ltd. | Claw-teeth-type rotating electrical machine |
CN101282050B (en) * | 2008-05-22 | 2011-05-04 | 中国科学院电工研究所 | Non-groove stator of evaporative cooling motor |
CN102714454A (en) * | 2009-12-02 | 2012-10-03 | 弹簧圈动力传输有限公司 | Permanent magnet coupling |
CN102714454B (en) * | 2009-12-02 | 2014-11-26 | 弹簧圈动力传输有限公司 | Permanent magnet coupling |
WO2016000301A1 (en) * | 2014-07-04 | 2016-01-07 | 周凌燕 | Excitation power generating and driving device |
CN105680655A (en) * | 2016-03-25 | 2016-06-15 | 福建金隆昌工业科技有限公司 | Power generation set with hybrid excitation device |
CN113300558A (en) * | 2021-06-10 | 2021-08-24 | 哈尔滨工业大学 | Double concentrated winding permanent magnet synchronous motor |
CN113300558B (en) * | 2021-06-10 | 2022-07-01 | 哈尔滨工业大学 | Double concentrated winding permanent magnet synchronous motor |
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